Print Email Facebook Twitter Micro-hydration, pore connectivity and durability of cementitious materials Title Micro-hydration, pore connectivity and durability of cementitious materials Author Koenders, E.A.B. Ukrainczyk, N. Hansen, W. Faculty Civil Engineering and Geosciences Department Structural Engineering Date 2012-04-11 Abstract Latest developments in Hymostruc enable the possibility to evaluate the pore connectivity of an evolving microstructure while also considering the contribution of the ITZ and air voids and to examine the influence on frost durability. The numerical model is used to visualize this phenomenon and to show the contribution of both the pores and the ITZs to the continuation of capillary pore. Once the capillary pores are blocked by ongoing hydration the transport of harmful dilutions are restricted to move into the microstructure. However, distinction is made between the pore connectivity as developed in the bulk paste and the connectivity as developed by connected ITZs. A blockage of the capillary pores (pore discontinuity) as well as a blockage of the ITZs contribute to an increased depercolation of the cementitious microstructure and improve the microstructural performance. The surface durability of freeze/thaw resistance of pavements and chloride ingress is evaluated in view of the pore continuity modelling approach. Subject microstructuremodelingcement hydration To reference this document use: http://resolver.tudelft.nl/uuid:09a3c297-a1b0-4192-98b1-69ab0bbd0a52 Publisher Rilem Publications s.a.r.l. Embargo date 2012-08-30 ISBN 9782351581292 Source Second International Conference on Microstructural-related Durability of Cementitious Composites, RILEM Proceedings pro083, 11-13 April, 2012, Amsterdam, The Netherlands Part of collection Institutional Repository Document type conference paper Rights (c) 2012 Koenders, E.A.B.Ukrainczyk, N.Hansen, W. Files PDF 197fullpaper_Koenders_Ukr ... Hansen.pdf 1.05 MB Close viewer /islandora/object/uuid:09a3c297-a1b0-4192-98b1-69ab0bbd0a52/datastream/OBJ/view